Effects of acidity and a metabolic inhibitor on incorporation of calcium and inorganic carbon into endolymph and otoliths in salmon Oncorhynchus masou

ABSTRACT:   To investigate the mechanisms of calcium carbonate formation of teleost otoliths, using the double labeling technique of ⁴⁵Ca²⁺ and H¹⁴CO₃^–, the effects of tissue elimination, a metabolic inhibitor (cyanide) and acidity on the incorporation of calcium and inorganic carbon into endolymph and otoliths were examined. Incorporation of calcium and inorganic carbon into otoliths was decreased to 36% and 45%, respectively, by removing the sacculus. In contrast, cyanide inhibited incorporation of inorganic carbon and calcium into endolymph and otoliths in a concentration-dependent manner. Acidity in the incubation medium decreased the accumulation of inorganic carbon within the endolymph and otoliths. Calcium incorporation was not affected by variation of pH in the medium. These results indicate that calcium and bicarbonate are actively transported to endolymph via the sacculus, and it is suggested that the transport is involved in the oversaturation state for calcium carbonate in the endolymph and regulates subsequent calcification of otoliths.     

Histomorphometric effects of calcitonin on pharyngeal bone in fed and starved goldfish Carassius auratus

ABSTRACT: The effects of salmon calcitonin (sCT) on osteoblasts and osteoclasts were histologically and histomorphometrically investigated in the pharyngeal bone of fed and starved goldfish Carassius auratus . The thickness of the osteoid and the height of osteoblasts were also measured. Fish were given sCT intraperitoneally at a dose of 10 ng/g bodyweight four times every other day under either fed or starved conditions. The sCT treatment induced the retraction of osteoclasts and their disengagement from the bone surface. Salmon calcitonin had no effect on the histomorphometric parameters of bone formation activity, but suppressed the parameter (OcP/EP) that showed osteoclast activity. Salmon calcitonin did not affect the thickness of the osteoid, but increased the height of osteoblasts in starved fish. Histological and histomorphometric results demonstrated that osteoclast activity was suppressed when sCT was given to starved estrogenized goldfish five times for 10 days. Overall, results suggest that calcitonin is involved in bone assimilation by suppressing osteoclast activity and by enhancing osteoblast activity in the pharyngeal bone of goldfish.